SU1079686A1 - Cast iron - Google Patents

Description

In comparison with the known uugun, vanadium and phosphorus are additionally introduced into the proposed cast iron.

When the content in the iron is 0.10, 5 wt.% Vanadium, thermal resistance, scaling resistance and friction properties are increased. The lower limit of the vanadium content can be recommended for thin-walled casting. At a concentration of less than 0.1 wt.%, The effect on the properties is insignificant, and with an increase in the concentration of more than 0.5 wt.%, The deflection boom decreases, the fluidity of iron does not increase. smelting process. The true limit of the vanadium content (about 5 wt.%) Is used for thick-walled castings. When vanadium is introduced together with phosphorus (0.2-1.0 Mac.% D, the embrittlement of phosphorus and phosphide eutectics decreases, grain boundaries are cleaned, resulting in a sag, boom, dynamic strength and thermal stability. Phosphorus is introduced as an effective legir. a component that provides increased fluidity to the melt and cast iron in castings, high friction properties. Its quantity is taken from a concentration (0.2 wt.%) providing the cast iron in castings with the necessary friction coefficient and other frictional properties to concentration (1.0 wt.%), above which the deflection boom and plastic properties are reduced. Higher phosphorus content can be recommended for thin-walled casting. High deflection boom and plastic properties of the proposed cast iron are provided by grinding the carbide component of the presence of small carbonitrides wa nadi and other nitride-forming elements instead of relatively large chromium carbides, which predominate in the known iron. The introduction of boron iron in the amount of 0.010, 09 wt.% To gray high phosphorus agents ensures the hardening of the metallic base, the increase in –– the resistance to durability and strength properties. The cast iron in the amount of less than 0.01 wt.% changes in the properties are insignificant, and with an increase in its concentration of more than 0.09 wt.%, the chipping of the castings increases, and the dynamic strength decreases. Nitrogen in the amount of 0.06-0.18 wt.% Was introduced into gray high-phosphorus cast iron as an effective alloying component, providing an increase in frictional stability and scaling resistance due to the formation of carbonitrides that are resistant at elevated temperatures. Its content is taken from a concentration of 0.06 wt.%, When its effect on the frictional resistance of cast iron begins to have an effect, and is limited to a content of 0.18 wt.%, Because increasing its concentration higher reduces the strength of castings and complicates the melting in particular, alloying of the melt. The smelting of cast iron of various compositions is carried out in induction electric furnaces with an acid lining. Metal casting is carried out in shell molds to obtain samples of technological samples and castings. The method of smelting pig iron includes BfcmycK melt in a ladle, doping with nitrogen when cyanamide is injected; C, and the casting of casting molds at 13501380 C. The uptake of boron and vanadium, introduced X in the form of ferroalloys into the ladle upon melt doping, respectively, is 87 and 92%. mechanical properties and, thermal resistance and resistance to scaling, As seen from Table. 2, the values of oxidation resistance and thermal stability prevviayut the same quantities in the known iron. economic effect of the invention is 11-16 rub. per 1 ton of suitable casting. ITablitsa

2.5 2.6 0.2

0.2 0.01

4.1

3.6 0.8 1.5 1.0 0.7 1.0 0.7 1.2

0.7

Strength at stretching, MPa

Deflection arrow, mm

Friction resistance at

heating to hoop, cycle.

Scaling resistance, mg / mch

Te | Mechka resistance to

heat up cycle

continuation of the table. 1, - i

table 2

362

380 10.4 10.6

1970

2200 1.2 0.9

t

1340

1650

Claims (1)

^! CAST IRON containing carbon, silicon, manganese, aluminum, copper, titanium, calcium, rare earth elements, boron, nitrogen and iron resistance, it additionally contains vanadium and phosphorus in the following components, wt.%:, Carbon 2.5-4.1 Silicon 0.8-2.6 Manganese 0.2-1.0 Aluminum 0.01-1.20 Copper 0.01-1.00 Titanium 0.03-0.20 Calcium 0.01-0.10 Rare earth elements 0.01-0.10 Boron 0.01-0.09 Nitrogen 0.06-0.18 Vanadium 0.1-0.5 Phosphorus 0.2-1.0 Iron Rest